Method and apparatus for new subscriber access to telephony features

ABSTRACT

A method and apparatus for gaining access to communication services includes receiving an initial inquiry for communication service access, collecting equipment information based upon the initial inquiry, sending a non-voice communication to said equipment and receiving a request from said equipment to obtain communication service access. The apparatus includes a system having one or more controllers for performing communication service access.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation of U.S. patent application Ser. No.12/814,070 filed on Jun. 11, 2010 which claims priority to U.S.Provisional Patent Application Ser. No. 61/268,324 filed Jun. 11, 2009,both of which are incorporated by reference herein in their entireties.

FIELD OF THE INVENTION

The invention is related to the field of telecommunication devices andservices and more specifically, the invention is directed to a methodand apparatus for allowing new subscribers of VoIP-based communicationservices access to VoIP-based communication features.

BACKGROUND OF THE INVENTION

The Public Switched Telephone Network (PSTN) or Plain Old TelephoneService (POTS) was originally developed as a rudimentary “one to one”communication system. That is, it is best suited for connecting a firstcalling party to a second called party based solely upon the identifyinginformation associated with the called party (i.e., a destination orcalled telephone number). As the number of PSTN users increased, so didthe need for enhanced communication abilities and features such asconference calling, providing communications to multiple users at asingle location (i.e., Private Branch Exchange), call waiting, callforwarding and the like. Wireless communications further extended theabilities of the PSTN for enhanced freedom of movement. Smartphonetechnology (i.e., portable handheld telephony devices) has helped tofurther advance the ability of the PSTN to provide additional featuresand services to a subscriber by virtue of their ability to runapplications beyond basic telephony (i.e., web browsing, emailmanagement, global positioning/mapping/location services and the like)

Voice over IP (VoIP) is a technological development in the field oftelecommunications that is utilized to transmit voice conversations overa data network using the Internet Protocol (IP) rather than thededicated PSTN network. Entities (either businesses or individuals) useVoIP by purchasing and installing a minimal amount equipment (a CustomerPremise Equipment (CPE) device) to access a VoIP service provider andsubscribing to this telecommunication service. After the VoIP servicehas been subscribed to and depending on the level of service requested,an entity can make phone calls to other VoIP subscribers or to PSTNcustomers and access a number of features associated with the VoIPservice at a reduced cost than that of the PSTN. However in everyinstance described above, a party must subscribe to a communicationprovider to gain access to the features, devices and privileges offered.A party usually finds himself having to subscribe to multiple servicesand obtain multiple devices to gain access to all possible modes ofcommunication and content that is desired. There has been no advancementin exploiting the benefits of VoIP services by those who have previouslyonly been subscribers of PSTN/mobile services and desire to maintaintheir current PSTN-based mobile devices (e.g., smartphones).

Therefore, there is need in the art for the ability to access featuresof one type of communication provider via another without having toobtain a new device and other related ancillary administrative steps.

SUMMARY OF THE INVENTION

Embodiments of the subject invention comprise a method and apparatus forgaining access to communication services. According to some embodimentsof the subject invention, the method comprises receiving an initialinquiry for communication service access, collecting equipmentinformation based upon the initial inquiry, sending a non-voicecommunication to said equipment and receiving a request from saidequipment to obtain communication service access.

BRIEF DESCRIPTION OF THE FIGURES

So that the manner in which the above recited features of the presentinvention are attained and can be understood in detail, a moreparticular description of the invention, briefly summarized above, maybe had by reference to the embodiments thereof which are illustrated inthe appended drawings.

It is to be noted, however, that the appended drawings illustrate onlytypical embodiments of this invention and are therefore not to beconsidered limiting of its scope, for the invention may admit to otherequally effective embodiments.

FIG. 1 depicts a series of method steps for allowing new subscribers ofVoIP-based communication services access to VoIP-based telephonyfeatures in accordance with the subject invention;

FIG. 2 depicts a schematic diagram of a controller that may be used topractice one or more embodiments of the present invention; and

FIG. 3 depicts a system level diagram of network components thatinteract with each other to allow for new subscriber access of telephonyfeatures in accordance with the subject invention.

To facilitate understanding, identical reference numerals have beenused, where possible, to designate identical elements that are common tothe figures.

DETAILED DESCRIPTION

The subject invention provides access to telephony features for a newsubscriber of a communication service (e.g., a VoIP subscriber). Forexample, subscribers of solely PSTN-based mobile services are able toexploit the benefits of VoIP services and maintain their currentPSTN-based mobile devices (e.g., smartphones). The VoIP services areavailable via a simple communication request (i.e., telephone call) fromtheir existing mobile device. Such communication request generates thenecessary inquiries and direction to information that allows thePSTN-based mobile device to receive an application that allows it toperform in (or otherwise have access to) a VoIP-based network. Futurecommunication requests can then be processed via VoIP.

VoIP is a technological development in the field of telecommunicationsthat is utilized to transmit voice conversations over a data networkusing the Internet Protocol (IP). Entities (either businesses orindividuals) use VoIP by purchasing and installing a minimal amountequipment (a Customer Premise Equipment (CPE) device) to access a VoIPservice provider and subscribing to this telecommunication service.After the VoIP service has been subscribed to, and depending on thelevel of service requested, an entity can make phone calls to other VoIPsubscribers or to PSTN customers and access a number of featuresassociated with the VoIP service. As part of the call processing isconducted by non-traditional means (i.e. over a packet-based or VoIPnetwork), signaling and call set up is not performed exclusively by thetraditional means governed by ISDN and POTS. Signaling that is conductedin the packet-based network(s) is preferably executed using SessionInitiation Protocol (SIP). SIP is a popular communication protocol forinitiating, managing and terminating media (e.g., voice, data and video)sessions across packet based networks that typically use the InternetProtocol (IP) of which VOIP is an example. As such, there is increasedflexibility in the manner in which requests can be executed andincreased features for the customer using VoIP. The details andfunctionality of SIP can be found in the Internet Engineering Task Force(IETF) Request for Comments (RFC) Paper No. 3261 entitled, “SIP: SessionInitiation Protocol” herein incorporated in its entirety by reference.SIP establishes and negotiates a session, including the modification ortermination of a session. It uses a location-independent address systemfeature in which called parties can be reached based on a party's name.SIP supports name mapping and redirection allowing users to initiate andreceive communication from any location.

FIG. 1 depicts a series of method steps 100 for providing a newsubscriber of a communication service (e.g., a VoIP subscriber) accessto telephony features associated therewith in accordance with thesubject invention. The method 100 begins at step 102 whereby an inquiryto access a communication service feature is received from a newsubscriber of the communication service provider. The inquiry is in oneembodiment a telephone call; however, various types of messaging arealso capable of being processed in the method 100 described includingShort Messaging Service (SMS) or text messages, email, voicemail and thelike to provide this initial inquiry.

After the inquiry is received, an information collection is performed atstep 106. Specifically, information about the new subscriber's equipmentis collected in order to provide a suitable application for downloadingand operating on same. In one embodiment of the invention, informationis collected via an interactive voice responder (IVR) session. Such IVRsession allows the new subscriber to select attributes about theirmobile communication device and other parameters necessary to providethe appropriate application. Parameters may be selected from the groupconsisting of make of subscriber's existing mobile communication device,model of subscriber's existing mobile communication device, desiredlevel of telephony feature (e.g., trial version, base version, enhancedversion) and the like. Alternately, the IVR session is replaced with anauto-querying or populating function that detects at least one parameterregarding a subscriber or subscriber's existing device attribute in anattempt to collect the relevant information.

At step 108, a non-voice communication is sent to the subscriber'sexisting equipment containing information for accessing a telephonyfeature. In one embodiment of the invention, the non-voice communicationis selected from the group consisting of a text (SMS) message, a (MMS)message, an Email, a SIP, a HTTP or other IP-based message. Theinformation can be of any form known to those skilled in the art and inone embodiment is in the form of a hyperlink. With the non-voicecommunication forming the anchor, the target may be one or morelocations where a downloadable software application is stored. Forexample, one or more such locations may be one or more VoIP systemcomponents such as but not limited to servers, memory, database andthird party networks or locations that store the application.

At step 110, a request to receive the downloadable application is made.In one embodiment of the invention, the request may be made by havingthe new subscriber of VoIP services click on the hyperlink the in thenon-voice communication received in his mobile device. In so doing, themobile device is able to access the specific webpage from where thetelephony feature is downloadable. In an alternate embodiment, therequest is initiated upon the opening of the non-voice communication inthe mobile device.

At step 112, the downloadable software application is sent to the mobiledevice of the new subscriber of VoIP services. The download isaccomplished by any manner known to those skilled in the art of mobiletelephony such as via a wireless network having the appropriate serversand bandwidth capable of transmitting this type of data. The method endsat step 114.

FIG. 2 depicts a schematic diagram of a controller that may be used topractice one or more embodiments of the present invention. Any one,combination or all of the servers identified in FIG. 3 and discussedherein and in greater detail below can function as a controller that maybe used to practice the present invention.

The controller 200 may be one of any form of a general purpose computerprocessor used in accessing an IP-based network such as a LAN/WAN, acorporate intranet, the Internet or the like. The controller 200comprises a central processing unit (CPU) 202, a memory 204, and supportcircuits 202 for the CPU 202. The controller 200 also includesprovisions 208 for connecting the controller 200 to other networkcomponents such as databases and/or secondary storage where copies ofthe downloadable software applications are stored until subscriberrequest, customer equipment and the Internet and the one or moreinput/output devices (not shown) for accessing the controller 200 and/orperforming ancillary or administrative functions related thereto. Notethat the provisions 208 are shown as a single bus structure in FIG. 2;however, they may alternately be separate bus structures withoutdegrading or otherwise changing the intended operability of thecontroller 200 or invention in general. Additionally, the controller 200and its operating components and programming as described in detailbelow are shown as a single entity; however, the controller may also beone or more controllers and programming modules interspersed around asystem each carrying out a specific or dedicated portion of thedownloadable software request process. Other configurations of thecontroller and controller programming are known and understood by thoseskilled in the art.

The memory 204 is coupled to the CPU 202. The memory 202, orcomputer-readable medium, may be one or more of readily available memorysuch as random access memory (RAM), read only memory (ROM), floppy disk,hard disk, flash memory or any other form of digital storage, local orremote. The support circuits 202 are coupled to the CPU 202 forsupporting the processor in a conventional manner. These circuitsinclude cache, power supplies, clock circuits, input/output circuitryand subsystems, and the like. A software routine 212, when executed bythe CPU 202, causes the controller 200 to perform processes of thepresent invention and is generally stored in the memory 204. Thesoftware routine 212 may also be stored and/or executed by a second CPU(not shown) that is remotely located from the hardware being controlledby the CPU 202.

The software routine 212 is executed when a preferred method ofdownloadable software request fulfillment is desired. The softwareroutine 212, when executed by the CPU 202, transforms the generalpurpose computer into a specific purpose computer (controller) 200 thatcontrols the request of, for example, FIG. 1. Although the process ofthe present invention is discussed as being implemented as a softwareroutine, some of the method steps that are disclosed therein may beperformed in hardware as well as by the software controller. As such,the invention may be implemented in software as executed upon a computersystem, in hardware as an application specific integrated circuit orother type of hardware implementation, or a combination of software andhardware. The software routine 212 of the present invention is capableof being executed on computer operating systems including but notlimited to Microsoft Windows 98, Microsoft Windows XP, Apple OS X andLinux. Similarly, the software routine 212 of the present invention iscapable of being performed using CPU architectures including but notlimited to Apple Power PC, Intel x82, Sun service provider agentRC andIntel ARM.

FIG. 3 depicts a system 300 comprised of network components thatinteract with each other to provide a new subscriber of a communicationservice (e.g., a VoIP subscriber) access to telephony features of a VoIPtelecommunication environment in accordance with the subject invention.The system 300 comprises a service access terminal 302, an accessinformation message generator 304 and a storage device 310. Each of theindicated network components are connected to a wide area network 306that provides connection to other networks, devices, services and thelike. In one embodiment of the invention, the wide area network is amobile telephony network although other networks are considered withinthe scope of the invention including but not limited to the Internet.The wide area network 306 provides a means for connecting a subscriberdevice 308 to the subscriber's telecommunication service and alternatelythe system 300 for accessing additional telephony services not otherwisepart of the subscriber's current services and features.

The service access terminal 302 provides a portal for new VoIPsubscribers to gain access to features associated with the service. Forexample, when a new VoIP subscriber desires to use the VoIP networkinstead of the mobile telephony network while using his existing mobiledevice 308, the service access terminal 302 can be accessed to obtainthe necessary tool(s) to have the mobile device 308 perform in thedesired manner. In one embodiment of the invention, a service accessrequest is made from the existing mobile device 308. The service accessrequest may be in the form of a toll free telephone number althoughother telephone numbers or service access request formats are possiblesuch as but not limited to an SMS.

The service access terminal 302 detects the request and determines arecipient for the request. In one embodiment, the recipient isdetermined by pulling caller ID information from the call made to theservice access terminal 302 (i.e., the caller id/DID number of theexisting mobile device is obtained). As discussed with reference to themethod 100 described above, other information about the subscriberand/or the mobile device 308 is also collected, for example via an IVRprocess. The recipient and other information is then passed on to theaccess information message generator 304 which creates a messagecontaining information about how to access the desired feature/telephonyservice. The message is addressed based on the recipient information. Inone embodiment of the invention, the message is a Short MessagingService (SMS) message and the content of the information is in the formof a Universal Resource Locator (URL) or hyperlink that points to alocation where the feature/telephony service may be accessed. Once theaddressing and message generation is completed, the message is deliveredto the recipient, preferably via the same network 306 that the requestwas made.

The mobile device 308, having received the message, now has the accessinformation in a format that provides efficient and easy access to thedesired feature/telephony service. That is, the mobile device can beactivated to access the URL or hyperlink which will direct an action tothe storage device 310. The storage device 310 retains the desiredapplication software that, once downloaded, installed and activated onthe existing mobile device, will allow the subscriber access to thedesired feature/telephony service associated with the VoIP provider. Inone embodiment of the invention, the storage device 310 is part of thesystem 300 associated with the VoIP provider. In an alternateembodiment, the storage device is maintained by a third party providerof telephony/media/communication services and may be associated with orotherwise providing the communication services that are native to themobile device 308.

While foregoing is directed to embodiments of the present invention,other and further embodiments of the invention may be devised withoutdeparting from the basic scope thereof, and the scope thereof.

What is claimed is:
 1. A method for providing access to packet-enabledservices comprising: receiving an initial inquiry for packet-enabledservice access from a mobile device; collecting equipment informationregarding the mobile device responsive to receiving the initial inquiry;sending a non-voice communication to the mobile device where thenon-voice communication comprises packet-enabled mobile deviceconnection information generated using the collected equipmentinformation; receiving a request from the mobile device to provide thepacket-enabled service access, wherein the request is associated withthe packet-enabled mobile device connection information sent to themobile device; and negotiating a packet-enabled service session across apacket based network for the mobile device using the packet-enabledservice access provided to the mobile device responsive to the request.2. The method of claim 1, wherein the initial inquiry is made via one ofa telephone call, a text message, an email or a voicemail.
 3. The methodof claim 1, wherein the equipment information collected comprises atleast one of caller identification information, make of the mobiledevice, model of the mobile device, or a telephony feature.
 4. Themethod of claim 1, wherein the equipment information is collected via anautomated feature that detects one or more parameters pertaining to atleast one of a user of the mobile device or the mobile device.
 5. Themethod of claim 1, wherein the equipment information is collected via aninteractive voice responder (IVR) session.
 6. The method of claim 1,wherein the non-voice communication is one of a text message, a mobilephone message, an email, or an Internet Protocol (IP) based message. 7.The method of claim 1, wherein the non-voice communication comprises alink having a target of at least one location where a downloadablesoftware application is stored.
 8. An apparatus for providing access topacket-enabled services comprising: a service access terminal forreceiving an initial inquiry for packet-enabled service access from amobile device and collecting equipment information regarding the mobiledevice responsive to receiving the initial inquiry; and an accessinformation message generator for sending a non-voice communication tothe mobile device where the non-voice communication comprisespacket-enabled mobile device connection information generated using thecollected equipment information, receiving a request from the mobiledevice to provide the packet-enabled service access, wherein the requestis associated with the packet-enabled mobile device connectioninformation sent to the mobile device, and negotiating a packet-enabledservice session across a packet based network for the mobile deviceusing the packet-enabled service access provided to the mobile deviceresponsive to the request.
 9. The apparatus of claim 8, wherein theinitial inquiry is made via one of a telephone call, a text message, anemail or a voicemail.
 10. The apparatus of claim 8, wherein theequipment information collected comprises at least one of calleridentification information, make of the mobile device, model of themobile device, or a telephony feature.
 11. The apparatus of claim 8,wherein the equipment information is collected via an automated featurethat detects one or more parameters pertaining to at least one of a userof the mobile device or the mobile device.
 12. The apparatus of claim 8,wherein the equipment information is collected via an interactive voiceresponder (IVR) session.
 13. The apparatus of claim 8, wherein thenon-voice communication is one of a text message, a mobile phonemessage, an email, or an Internet Protocol (IP) based message.
 14. Theapparatus of claim 8, wherein the non-voice communication comprises alink having a target of at least one location where a downloadablesoftware application is stored.
 15. A tangible non-transitory computerreadable medium storing a software program that, when executed by acomputer, causes the computer to perform a method for gaining access topacket-enabled services comprising, the method comprising: receiving aninitial inquiry for packet-enabled service access from a mobile device;collecting equipment information regarding the mobile device responsiveto receiving the initial inquiry; sending a non-voice communication tothe mobile device where the non-voice communication comprisespacket-enabled mobile device connection information generated using thecollected equipment information; receiving a request from the mobiledevice to provide the packet-enabled service access, wherein the requestis associated with the packet-enabled connection information sent to themobile device; and negotiating a packet-enabled service session across apacket based network for the mobile device using the packet-enabledservice access provided to the mobile device responsive to the request.16. The tangible non-transitory computer readable medium of claim 15,wherein the initial inquiry is made via one of a telephone call, a textmessage, an email or a voicemail; and wherein the equipment informationcollected comprises at least one of caller identification information,make of the mobile device, model of the mobile device, or a telephonyfeature.
 17. The tangible non-transitory computer readable medium ofclaim 15, wherein the equipment information is collected via aninteractive voice responder (IVR) session, or an automated feature thatdetects one or more parameters pertaining to at least one of a user ofthe mobile device or the mobile device.
 18. The tangible non-transitorycomputer readable medium of claim 15, wherein the non-voicecommunication comprises a link having a target of at least one locationwhere a downloadable software application is stored; and wherein thenon-voice communication is one of a text message, a mobile phonemessage, an email, or an Internet Protocol (IP) based message.